Tool for longitudinally subdividing sewer pipes

ABSTRACT

The invention relates to a tool for longitudinally subdividing buried sewer pipes having an asymmetric, generally oval cross section, made substantially of a support shoe opposing a cutting blade acting in the direction of the pipe axis. The device also has two side cutting blades and is moved through the old pipe by means of a rod and a cylindrical calibration mandrel.

The invention relates to a tool for longitudinally subdividing underground sewer pipes having asymmetric, namely oval cross section.

Such pipes do not permit the use of common equipments for trenchless replacement or installation of underground lines because these, without exception, require pipelines with circular walls and thus are intended only for destruction of axially symmetrical old lines.

There is, however, a great need for devices that are applicable in a same way for oval pipes to allow trenchless replacement while using the given pipe course.

The invention is thus based on the problem to provide a device for destructive replacement of sewer pipes while taking into account the asymmetry of an oval pipe.

This object is solved by a tool including a support shoe which is opposed by a cutting blade for severing a pipe wall as well as two side cutting blades to subdivide the pipe wall in a same direction. The support shoe ensures hereby that the old pipe gradient is maintained for the introduced new pipe even when the old pipe is slightly widened in its lower area after undergoing the longitudinal subdivision. In this way, later deposits from sewage water can be avoided in the new pipe.

The single blades and the support shoe are preferably arranged substantially in the form of a star on the casing of a tubular support. The cutting blade, preferably a cutting roller, in opposition to the support shoe should, however, be arranged anteriorly of the side cutting blades in operating direction. The preferably large-area support shoe absorbs the reactive forces of the opposing cutting blade, without destroying the old pipe. The side cutting blades become effective only later or after the cutting roller in order to cut longitudinal strips from the pipe that has been slit in the base.

In order to be able to longitudinally subdivide pipes of different diameters, the cutting roller may be radially adjustable and arranged centrally between two side cutting blades or cutting knives which are also radially adjustable and preferably offset rearwardly slightly in opposition to the operating direction.

In order to be able to laterally guide the cutting blade, guide pieces may be arranged on the tool on both sides of the cutting roller and supported on the pipe wall. Furthermore, the tool may be rotatably arranged on the support.

Overall, the tool according to the invention affords a fairly simple possibility to longitudinally subdivide an oval pipe in a meaningful way and to slightly widen it hereby in order to install coaxially a new pipe without damage.

An exemplary embodiment of the invention will now be described in greater detail with reference to the drawing, in which:

FIG. 1 shows a side perspective view of a tool according to the invention in an old pipe cut in longitudinal direction,

FIG. 2 shows a cross section through the device of FIG. 1 in the old pipe,

FIG. 3 shows the perspective view of the tool according to FIGS. 1 and 2, and

FIG. 4 shows the tool of FIG. 3 with a rod section.

The tool 1 is shown in its operative position in a substantially oval sewer pipe 2 with a pipe socket 3; it includes essentially a tubular support 4 with an upwardly pointing support shoe 5 in the configuration of a part-circular shaped shell that is conformed to the curvature of the pipe wall and is connected to the support pipe 4 via struts 7 arranged in star shape. The support shoe 5 is opposed by a cutting roller 10 which is arranged between two parallel radial plates 8, 9 of the support pipe 4 and sized to project beyond the old pipe 2 in radial direction.

Arranged on each of the plates 8, 9 is furthermore a guide piece 11, 12 which is supported on the wall of the old pipe 2. Finally, the support pipe 4 is provided on both sides in opposition to one another with wedge-shaped cutting knifes 13, 14 which are however arranged offset to the rear in relation to the cutting roller 10.

The support shoe 5 ensures jointly with the two side guide pieces 11, 12 and the rotatable arrangement of the tool body 4, 5, 8, 9 on a bursting rod 15 that the tool 1 retains its position regardless of any possible rotation of the rod 15. As a result, the tool uses the path that is determined by the guide pieces 11, 12 and oriented on the pipe axis so that the cut implemented by the cutting roller 10 is located at all times in the base of the pipe 2.

The bursting rod 15 is connected via a coupling sleeve 16 with the conical expansion nose 17 of a calibration mandrel 18 which has an interior in which the unillustrated new pipe extends.

Overall, a relatively uncomplicated longitudinal dividing of the old pipe is realized as well as an expansion involving a substantial U-shaped longitudinal dividing of the old pipe 2, 3 and sideways pushing of longitudinal strips on both sides of the cutting roller 10 as a result of the conical expansion nose 17. 

1.-10. (canceled)
 11. A tool for longitudinally subdividing an underground sewer pipe of asymmetrical cross section, comprising: a support shoe configured to rest again an inside of an old pipe; a first cutting blade disposed in opposition to the support shoe for cutting the old pipe; and two second side cutting blades arranged at a distance to the first cutting blade.
 12. The tool of claim 11, further comprising a tubular support, said support shoe and said first and second cutting blades being arranged on the tubular support.
 13. The tool of claim 12, wherein the support shoe and the first and second cutting blades are arranged on the tubular support in the form of a star.
 14. The tool of claim 11, wherein the first cutting blade is a cutting roller.
 15. The tool of claim 11, wherein the second cutting blades are arranged in axial offset relationship to the first cutting blade.
 16. The tool of claim 11, wherein the first cutting blade and the second cutting blades are constructed to allow adjustment in a radial direction.
 17. The tool of claim 11, further comprising lateral guide pieces arranged on both sides of the first cutting blade.
 18. The tool of claim 11, wherein the first cutting blade is arranged anteriorly of the second cutting blades in operative direction.
 19. The tool of claim 18, wherein the first cutting blade is arranged centrally between the second cutting blades
 20. The tool of claim 12, wherein the tubular support is sized for passage of a rod of a propulsion device.
 21. The tool of claim 20, wherein the tool is rotatably arranged on the rod.
 22. The tool of claim 20, wherein the propulsion device includes a driven calibration mandrel with a conical nose.
 23. The tool of claim 22, wherein a new pipe is arranged in the calibration mandrel. 